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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * CNRS-Ecole Polytechnique-INRIA Futurs-Universite Paris Sud *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(* $Id$ *)
open Pp
open Util
open Names
open Nameops
open Sign
open Term
open Declarations
open Entries
open Environ
open Evd
open Typing
open Refiner
open Proof_trees
open Tacexpr
open Proof_type
open Lib
open Safe_typing
(*********************************************************************)
(* Managing the proofs state *)
(* Mainly contributed by C. Murthy *)
(*********************************************************************)
type proof_topstate = {
mutable top_end_tac : tactic option;
top_goal : goal;
top_strength : Decl_kinds.goal_kind;
top_hook : declaration_hook }
let proof_edits =
(Edit.empty() : (identifier,pftreestate,proof_topstate) Edit.t)
let get_all_proof_names () = Edit.dom proof_edits
let msg_proofs use_resume =
match Edit.dom proof_edits with
| [] -> (spc () ++ str"(No proof-editing in progress).")
| l -> (str"." ++ fnl () ++ str"Proofs currently edited:" ++ spc () ++
(prlist_with_sep pr_spc pr_id (get_all_proof_names ())) ++
str"." ++
(if use_resume then (fnl () ++ str"Use \"Resume\" first.")
else (mt ()))
)
let undo_default = 50
let undo_limit = ref undo_default
(*********************************************************************)
(* Functions for decomposing and modifying the proof state *)
(*********************************************************************)
let get_state () =
match Edit.read proof_edits with
| None -> errorlabstrm "Pfedit.get_state"
(str"No focused proof" ++ msg_proofs true)
| Some(_,pfs,ts) -> (pfs,ts)
let get_topstate () = snd(get_state())
let get_pftreestate () = fst(get_state())
let get_end_tac () = let ts = get_topstate () in ts.top_end_tac
let get_goal_context n =
let pftree = get_pftreestate () in
let goal = nth_goal_of_pftreestate n pftree in
(project goal, pf_env goal)
let get_current_goal_context () = get_goal_context 1
let set_current_proof = Edit.focus proof_edits
let resume_proof (loc,id) =
try
Edit.focus proof_edits id
with Invalid_argument "Edit.focus" ->
user_err_loc(loc,"Pfedit.set_proof",str"No such proof" ++ msg_proofs false)
let suspend_proof () =
try
Edit.unfocus proof_edits
with Invalid_argument "Edit.unfocus" ->
errorlabstrm "Pfedit.suspend_current_proof"
(str"No active proof" ++ (msg_proofs true))
let resume_last_proof () =
match (Edit.last_focused proof_edits) with
| None ->
errorlabstrm "resume_last" (str"No proof-editing in progress.")
| Some p ->
Edit.focus proof_edits p
let get_current_proof_name () =
match Edit.read proof_edits with
| None ->
errorlabstrm "Pfedit.get_proof"
(str"No focused proof" ++ msg_proofs true)
| Some(na,_,_) -> na
let add_proof (na,pfs,ts) =
Edit.create proof_edits (na,pfs,ts,!undo_limit+1)
let delete_proof_gen = Edit.delete proof_edits
let delete_proof (loc,id) =
try
delete_proof_gen id
with (UserError ("Edit.delete",_)) ->
user_err_loc
(loc,"Pfedit.delete_proof",str"No such proof" ++ msg_proofs false)
let init_proofs () = Edit.clear proof_edits
let mutate f =
try
Edit.mutate proof_edits (fun _ pfs -> f pfs)
with Invalid_argument "Edit.mutate" ->
errorlabstrm "Pfedit.mutate"
(str"No focused proof" ++ msg_proofs true)
let start (na,ts) =
let pfs = mk_pftreestate ts.top_goal in
add_proof(na,pfs,ts)
let restart_proof () =
match Edit.read proof_edits with
| None ->
errorlabstrm "Pfedit.restart"
(str"No focused proof to restart" ++ msg_proofs true)
| Some(na,_,ts) ->
delete_proof_gen na;
start (na,ts);
set_current_proof na
let proof_term () =
extract_pftreestate (get_pftreestate())
(* Detect is one has completed a subtree of the initial goal *)
let subtree_solved () =
let pts = get_pftreestate () in
is_complete_proof (proof_of_pftreestate pts) &
not (is_top_pftreestate pts)
let tree_solved () =
let pts = get_pftreestate () in
is_complete_proof (proof_of_pftreestate pts)
let top_tree_solved () =
let pts = get_pftreestate () in
is_complete_proof (proof_of_pftreestate (top_of_tree pts))
(*********************************************************************)
(* Undo functions *)
(*********************************************************************)
let set_undo = function
| None -> undo_limit := undo_default
| Some n ->
if n>=0 then
undo_limit := n
else
error "Cannot set a negative undo limit"
let get_undo () = Some !undo_limit
let undo n =
try
Edit.undo proof_edits n;
(* needed because the resolution of a subtree is done in 2 steps
then a sequence of undo can lead to a focus on a completely solved
subtree - this solution only works properly if undoing one step *)
if subtree_solved() then Edit.undo proof_edits 1
with (Invalid_argument "Edit.undo") ->
errorlabstrm "Pfedit.undo" (str"No focused proof" ++ msg_proofs true)
(* Undo current focused proof to reach depth [n]. This is used in
[vernac_backtrack]. *)
let undo_todepth n =
try
Edit.undo_todepth proof_edits n
with (Invalid_argument "Edit.undo") ->
errorlabstrm "Pfedit.undo" (str"No focused proof" ++ msg_proofs true)
(* Return the depth of the current focused proof stack, this is used
to put informations in coq prompt (in emacs mode). *)
let current_proof_depth() =
try
Edit.depth proof_edits
with (Invalid_argument "Edit.depth") -> -1
(*********************************************************************)
(* Proof cooking *)
(*********************************************************************)
let xml_cook_proof = ref (fun _ -> ())
let set_xml_cook_proof f = xml_cook_proof := f
let cook_proof () =
let (pfs,ts) = get_state()
and ident = get_current_proof_name () in
let {evar_concl=concl} = ts.top_goal
and strength = ts.top_strength in
let pfterm = extract_pftreestate pfs in
!xml_cook_proof (strength,pfs);
(ident,
({ const_entry_body = pfterm;
const_entry_type = Some concl;
const_entry_opaque = true;
const_entry_boxed = false},
strength, ts.top_hook))
let current_proof_statement () =
let ts = get_topstate() in
(get_current_proof_name (), ts.top_strength,
ts.top_goal.evar_concl, ts.top_hook)
(*********************************************************************)
(* Abort functions *)
(*********************************************************************)
let refining () = [] <> (Edit.dom proof_edits)
let check_no_pending_proofs () =
if refining () then
errorlabstrm "check_no_pending_proofs"
(str"Proof editing in progress" ++ (msg_proofs false) ++ fnl() ++
str"Use \"Abort All\" first or complete proof(s).")
let delete_current_proof () = delete_proof_gen (get_current_proof_name ())
let delete_all_proofs = init_proofs
(*********************************************************************)
(* Modifying the end tactic of the current profftree *)
(*********************************************************************)
let set_end_tac tac =
let top = get_topstate () in
top.top_end_tac <- Some tac
(*********************************************************************)
(* Modifying the current prooftree *)
(*********************************************************************)
let start_proof na str sign concl hook =
let top_goal = mk_goal sign concl None in
let ts = {
top_end_tac = None;
top_goal = top_goal;
top_strength = str;
top_hook = hook}
in
start(na,ts);
set_current_proof na
let solve_nth k tac =
let pft = get_pftreestate () in
if not (List.mem (-1) (cursor_of_pftreestate pft)) then
mutate (solve_nth_pftreestate k tac)
else
error "cannot apply a tactic when we are descended behind a tactic-node"
let by tac = mutate (solve_pftreestate tac)
let instantiate_nth_evar_com n c =
mutate (Evar_refiner.instantiate_pf_com n c)
let traverse n = mutate (traverse n)
(* [traverse_to path]
Traverses the current proof to get to the location specified by
[path].
ALGORITHM: The algorithm works on reversed paths. One just has to remove
the common part on the reversed paths.
*)
let common_ancestor l1 l2 =
let rec common_aux l1 l2 =
match l1, l2 with
| a1::l1', a2::l2' when a1 = a2 -> common_aux l1' l2'
| _, _ -> List.rev l1, List.length l2
in
common_aux (List.rev l1) (List.rev l2)
let rec traverse_up = function
| 0 -> (function pf -> pf)
| n -> (function pf -> Refiner.traverse 0 (traverse_up (n - 1) pf))
let rec traverse_down = function
| [] -> (function pf -> pf)
| n::l -> (function pf -> Refiner.traverse n (traverse_down l pf))
let traverse_to path =
let up_and_down path pfs =
let cursor = cursor_of_pftreestate pfs in
let down_list, up_count = common_ancestor path cursor in
traverse_down down_list (traverse_up up_count pfs)
in
mutate (up_and_down path)
(* traverse the proof tree until it reach the nth subgoal *)
let traverse_nth_goal n = mutate (nth_unproven n)
let traverse_prev_unproven () = mutate prev_unproven
let traverse_next_unproven () = mutate next_unproven
(* The goal focused on *)
let focus_n = ref 0
let make_focus n = focus_n := n
let focus () = !focus_n
let focused_goal () = let n = !focus_n in if n=0 then 1 else n
let reset_top_of_tree () =
mutate top_of_tree
let reset_top_of_script () =
mutate (fun pts ->
try
up_until_matching_rule is_proof_instr pts
with Not_found -> top_of_tree pts)
|